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Investigation of Changes in Rangeland Vegetation Regarding Different Slopes, Elevation and Geographical Aspects (Case Study: Yazi Rangeland, Noor County, Iran)

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Investigation of Changes in Rangeland Vegetation Regarding Different Slopes, Elevation and Geographical Aspects (Case Study: Yazi Rangeland, Noor County, Iran) Journal of Rangeland Science, 2014, Vol. 4, No. 3 Saeedi Goraghani et al. /246 Contents available at ISC and SID Journal homepage: www.rangeland.ir Full Length Article: Investigation of Changes in Rangeland Vegetation Regarding Different Slopes, Elevation and Geographical Aspects (Case Study: Yazi Rangeland, Noor County, Iran) Hamid Reza Saeedi GoraghaniA, Mojtaba Solaimani SardoB, Nabi AziziC, Ali AzarehD, Sara HeshmatiE APh.D. Student in Range Management, Department of Reclamation of Arid and Mountainous Regions, the University of Tehran, Iran (Corresponding Author), Email: [email protected] BPh.D. Student of Combat Desertification, Faculty of Natural Resources and Earth Science, University of Kashan, Iran CPh.D. Student in Forestry, University of Tehran, Iran DPh.D. Student of De-Desertification, Department of Reclamation of Arid and Mountainous Regions, the University of Tehran, Iran EFormer Master Student in Range Management, Agricultural Science and Natural Resources University of Sari, Iran Received on: 02/03/2014 Accepted on: 31/08/2014 Abstract. In many studies, topographic factors have been considered as an important factor in establishing the vegetation in different ecosystems. So, it affects vegetation composition and diversity by influencing soil moisture, fertility and soil depth. The aim of this research was to investigate the effects of slope, elevation and geographical aspects on species growth, forage production and vegetation cover in Yazi rangeland, Noor province, Iran. Sampling was done along three transects with the length of 150 m in each unit. Along each transect, 15 plots (1 m2) were established with 10 m distances. In each plot, species name, growth form, cover percent and soil surface percent such as percentages of stones, pebbles and amount of litter were recorded. Also, the rangeland production was measured by the clip-and-weighArchive method. Data were analyzed of and mean SID comparisons were done using Duncan method. Results showed that the geographical aspects had significant impacts on forage production, vegetative form and species composition. Northern aspects had the highest forage production rate and species frequency. Also, elevation had a significant effect on forage production and vegetative form so that the elevation of 1600- 1900 m and 2200-2500 m had the highest and lowest effects. Also, according to forage production and vegetative form in the range of slope classes, it is specified that it has also a significant effect on forage production seen in higher slopes. Key words: Plant composition, Production, Topographic factors, Yazi Rangeland of Noor www.SID.ir J. of Range. Sci., 2014, Vol. 4, No. 3 Investigation of …/ 247 Introduction and geographical aspects for optimal Exploring the relationships between planning and management of watersheds vegetation and environmental factors is in the country. Badano et al. (2005) by considered as the basis of appropriate studying oak communities in management and planning in the Mediterranean regions of Chili suggested rangeland ecosystems. Understanding the that the reduced moisture in the southern relationships between vegetation and slopes along with the decreased environmental factors is inevitable intragroup competition led to an because of the important role of plants in increased diversity in this slope aspect. balancing the ecosystem as well as Gracia et al. (2007) investigated the different benefits that human gain effects of aspects and altitude on species directly or indirectly from the vegetation composition in Spain. They concluded (Ahmadi-Poor, 2004; Tamrtash et al., that aspects and altitude had no 2012). Vegetation is significantly significant effects on species diversity but influenced by environmental factors such changes in altitude and aspects made as climate, soil and topography but species composition different. Grytnes among all factors existing in nature, (2006) compared the species richness of climate represents the most important vascular plants and lichens along an factor determining the distribution of altitude gradient (310-1135 m above sea living organisms, particularly plants level) in West Norway and concluded (Jafari et al., 2010). Topographic features that most species richness was at such as elevation, slope and aspect intermediate elevations as compared to influence the dryness of soil, the other classes. Also, Faraj Allahi et al. evapotranspiration and soil water (2013) investigated the most important availability (Vetas, 1993). Close effects of soil factors and topographies on relationship between environmental the species diversity of Bijar rangeland in factors and vegetation leads to the west of Iran and expressed that the most restriction or expansion of a plant important effective environmental factors association in relation to prevailing in the changes of species diversity in their environmental factors in an area (Heidari study area are soil texture (clay percent, et al., 2011). In other words, silt and sand), gravel percent, limestone, environmental factors cause plants with height from sea level and slop percent. similar ecological requirements in the Gao et al. (2009) have investigated the same area and form the plant simultaneous effects of elevation and communities (Piri-Sahragard et al., human intervention on landscape and 2012). vegetation in the mountainous village of Evaluation of vegetation changes in Bejing, China and concluded that rangeland ecosystemsArchive over time in whereverof theSID level of human intervention response to environmental and decreases in more remote regions, plant managerial interactions is of high diversity initially decreases and but then, importance for the utilizers of these it increases by moving away from the ecosystems (Pike et al., 2002) and the critical areas. They believe that plant results of these evaluations will lead to diversity varies with different land uses. managerial decision making in order to Also, their results revealed that improve the ecosystem both qualitatively topographic and edaphic factors have and quantitatively (Heshmati et al., significant effects on the level of species 2007). diversity. In another study, Haji Hashemi It is important to achieve the patterns Jazi et al. (2013) evaluated the roles of of vegetation changes in rangeland topographic and soil factors on vegetation ecosystems in different slopes, elevation cover in the Zavareh rangeland of www.SID.ir Journal of Rangeland Science, 2014, Vol. 4, No. 3 Saeedi Goraghani et al. /248 Ardestan, Iran and reported that tomentellus, Artemisia sieberi, environmental factors had been measured Onobrychis cornuta, Hordeum fragile, and texture, electrical conductivity, lime, Astragalus siliquosus, Festuca ovina and gypsum, calcium and organic matter of Festuca arundinacea (Arab Roshan and soil are the important effective factors in Saeedi Goraghani, 2010). plant dispersal of various sites. Chang et al. (2004) investigated the topography Research Methodology variables (elevation, slope and slope The study area was assessed in 1.50000 aspect), soil type and solar radiation in scale with the topographic maps, relation to vegetation and suggested that geomorphologies were described and slope aspect is a primary and important then, four elevation classes (1600-1900, factor influencing the distribution of 1900-2200, 2200-2500 and 2500-2800) m vegetation in the rangelands. In another above sea level, four slope classes (0-10, study, Small and McCarthy (2005) 10-20, 20-30 and 30-50%) and four considered the slope aspect as an elevation classes (North, South, East and important factor creating the vegetation West) were presented in order to achieve changes and diversity in the ecosystem the measurement used by Global and they suggested that slope aspect Positioning System (GPS). Sampling was affects the composition and diversity of carried out within the pure community vegetation by influencing soil moisture, and for this purpose samples from the fertility and depth. ecotone (distance between two Obviously, vegetation, vegetative communities) zones were avoided. For forms and frequency of rangeland species measuring the vegetation, the proper vary in different slopes, elevation and sample plot size was determined by the geographical aspects due to the varying minimum area method and number of plant, soil, climatic (moisture, angle of plots was specified after primary solar radiation), topographic and sampling according to the changes in managerial characteristics; hence, vegetation as compared to the statistical studying the geographic aspects provides method. In each unit, sampling was an opportunity to manage the rangelands carried out along three transects with the appropriately in the study area by length of 150 m. Along each transect, identifying the changes in vegetation. samples were taken from 15 plots (1 m2), Thus, this research aimed to study the dimensions and 10 m distance from each effects of slope, elevation and other (Zare-Chahoki et al., 2010). In each geographical aspects on vegetation plot, species name and form, vegetation changes in Yazi spring rangelands, Noor. cover and soil coverage including stones and pebbles percent as well as litter Materials and MethodsArchive percent of were recorded.SID Production rate of Case study rangeland was also measured by cutting With an area of 575.4 ha, Yazi rangeland and weighing method (Moghadam, is located at 110 km apart from Noor in 2008). To estimate this factor, species the north of Iran (52° 3-52° 5 N and 36° desirable for the
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